百草枯对小鼠黑质纹状体通路囊泡单胺转运体2的影响

目的 :探讨囊泡单胺转运体 2 (vesicularmonoaminetransporter 2 ,VMAT2 )是否参与百草枯所致帕金森病 (Parkinson’sdisease ,PD)的发病机制。方法 :用口服百草枯的途径 ,建立小鼠PD模型 ;应用免疫组织化学和原位杂交法分别观察小鼠纹状体区VMAT2的水平和黑质部基因表达的变化。结果 :每天口服百草枯 10mg·kg-1的C5 7BL/ 6小鼠 ,2个月后自发性活动明显减少。纹状体区的VMAT2含量较口服盐水对照组减少 5 1 7% (P <0 0 1) ,黑质部VMAT2mRNA的表达降低 5 2 7% (P <0 0 1)。结论 :百草枯可造成小鼠PD样的行为表现 :黑质纹状体通路VMAT2含量和基因表达的降低 ,提示VMAT2参与了百草枯所致的PD发病机制。     

Reserpine Affects Differentially the Density of the Vesicular Monoamine Transporter and Dihydrotetrabenazine Binding Sites

We have studied the effect of a single injection of reserpine (5 mg/kg, s.c.) on the synaptic vesicle monoamine transporter (VMAT) density in the rat striatum, using two labelling procedures: radioimmunolabelling with an antibody against VMAT, and binding of the specific ligand [³H]dihydrotetrabenazine ([³H]TBZOH). In the rostral and medial striatum, the distribution of VMAT immunoreactivity displayed the highest density in the lateral subregions. In the caudal part of the striatum, VMAT immunoreactivity showed increasing density from dorsal to ventral subregions. The VMAT immunoreactivity was not altered 2 and 30 days after the reserpine injection, whereas [³H]TBZOH binding site density, measured on adjacent slices, showed a dramatic decrease at day 2 and a moderate recovery at day 30, suggesting that despite a persistent blockade of [³H]TBZOH binding sites, VMAT protein density was unchanged.     

百草枯干预不同时间后DAT和VMAT2基因表达的时程变化

目的 探讨百草枯干预后黑质部纹状体通路DAT和VMAT2基因表达的时程变化。方法 用口服百草枯的途径，建立小鼠帕金森病模型；应用RT-PCR技术观察小鼠口服百草枯（每日10mg/kg）不同时间后黑质部DAT和VMAT2基因表达的变化。结果 从口服百草枯2周起，小鼠黑质部DAT和VMAT2的基因表达开始减少，并且随着喂食时间的延长逐渐减少。结论 在百草枯致PD的早期，DAT和VMAT2的基因表达就受到损害，并且随着百草枯所致PD病程的延续，受损的程度逐渐加重，表明DAT和VMAT2均可能参与了百草枯致帕金森病的发病机制。     

Efficacy of Glutamate Modulators in Tic Suppression: A Double-Blind,Randomized Control Trial of D-serine and Riluzole in Tourette Syndrome

BackgroundIt has been hypothesized that glutamatergic transmission may be altered in Tourette syndrome. In this study, we explored the efficacy of a glutamate agonist (D-serine) and antagonist (riluzole) as tic-suppressing agents in children with Tourette syndrome.MethodsWe performed a parallel three-arm, 8-week, double-blind, randomized placebo-controlled treatment study in children with Tourette syndrome. Each child received 6 weeks of treatment with D-serine (maximum dose 30 mg/kg/day), riluzole (maximum dose 200 mg/day), or placebo, followed by a 2-week taper. The primary outcome measure was effective tic suppression as determined by the differences in the Yale Global Tic Severity Scale score; specifically, the total tic score and the combined score (total tic score + global impairment) between treatment arms after 6 weeks of treatment. Mann-Whitney U tests were performed to analyze differences between each group and the placebo group.ResultsTwenty-four patients (males = 21, ages 9-18) enrolled in the study; one patient dropped out before completion. Combined Yale Global Tic Severity Scale score and total tic scores improved in all groups. The 6-week mean percent improvement of the riluzole (n = 10), D-serine (n = 9), and placebo (n = 5) groups in the combined Yale Global Tic Severity Scale score were 43.7, 39.5, and 30.2 and for total tic scores were 38.0, 25.0, and 34.0, respectively. There were no significant differences in Yale Global Tic Severity Scale score or total tic score, respectively, between the riluzole and placebo (P = 0.35, 0.85) or D-serine and placebo (P = 0.50, 0.69) groups.ConclusionTics diminished by comparable percentages in the riluzole, D-serine, and placebo groups. These preliminary data suggest that D-serine and riluzole are not effective in tic suppression.     

Cocaine,but not amphetamine,short term treatment elevates the density of rat brain vesicular monoamine transporter 2

Summary We compared the effect of 5 days D-amphetamine (5 mg/kg/day i.p.) and cocaine (15 mg/kg/day i.p.) administration on the vesicular monoamine transporter 2 (VMAT2) density in rat brain. VMAT2 expression was assessed by [³H]dihydrotetrabenazine high affinity binding. Cocaine administration led to significant increases in VMAT2 density in both prefrontal cortex (+40%, p < 0.01) and striatum (+23%, p < 0.05), while amphetamine did not affect VMAT2 expression. The upregulation of VMAT2 may serve as compensatory mechanism aimed to enhance the vesicular monoamine storage capacity.     

Effect of tetrabenazine on the striatal uptake of exogenous L-DOPA in vivo: a PET study in young and aged rhesus monkeys

The effect of tetrabenazine (TBZ) pretreatment on the striatal uptake of exogenous L-DOPA in vivo was assessed noninvasively in rhesus monkeys by positron emission tomography (PET) using the tracer [(18)F]-FluoroDOPA (FDOPA). Paired studies were done comparing baseline vs. TBZ treatment on the uptake of FDOPA, a measure of aromatic L-amino acid decarboxylase (AAAD) activity. Results show increased AAAD activity with TBZ treatment. These results suggest that the action of TBZ as a dopamine antagonist dominates more than its expected action as a potent vesicular monoamine transporter (VMAT2) inhibitor. Results also showed diminished responsivity of AAAD to TBZ challenge in aged monkey brain.     

Localization of vesicular monoamine transporter isoforms (VMAT1 and VMAT2) to endocrine cells and neurons in rat

Polyclonal antipeptide antibodies have been raised against each of the two isoforms of the rat vesicular monoamine transporter, VMAT1 and VMAT2. Antibody specificity was determined by isoform-specific staining of monkey fibroblasts programmed to express either VMAT1 or VMAT2. The expression of VMAT1 and VMAT2 in the diffuse neuroendocrine system of the rat has been examined using these polyclonal antibodies specific for either VMAT1 or VMAT2. VMAT1 is expressed exclusively in endocrine/paracrine cells associated with the intestine, stomach, and sympathetic nervous system. VMAT2 is expressed in neurons of the sympathetic nervous system, and aminergic neurons in the enteric and central nervous systems. VMAT2 is expressed in at least two endocrine cell populations in addition to its expression in neurons. A subpopulation of chromogranin A (CGA)-expressing chromaffin cells of the adrenal medulla also express VMAT2, and the oxyntic mucosa of the stomach contains a prominent population of CGA- and VMAT2-positive endocrine cells. The expression of VMAT2 in neurons, and the mutually exclusive expression of VMAT1 and VMAT2 in endocrine/paracrine cell populations of stomach, intestine, and sympathetic nervous system may provide a marker for, and insight into, the ontogeny and monoamine-secreting capabilities of multiple neuroendocrine sublineages in the diffuse neuroendocrine system.     

Altered expression of vesicular monoamine transporter 2 in epileptic patients and experimental rats

In the central nervous system (CNS), vesicular monoamine transporter 2 (VMAT2) transports cytoplasmic monoamines such as dopamine into synaptic vesicles for storage and subsequent exocytotic release. Recent studies have provided direct evidence for VMAT2-regulated monoamine neurotransmitter involvement in the neurophysiological activities of neurological disease. This study investigated the expression pattern of VMAT2 in patients with temporal lobe epilepsy (TLE) and in a rat model of epilepsy. We assessed the expression of VMAT2 in the temporal neocortex in 24 TLE patients using western blotting and quantitative real time PCR (qRT-PCR) analyses. These results showed that VMAT2 expression dynamically decreased in TLE patients when compared with the control subjects (n = 12). And that VMAT2 protein transiently increased in acute stages (1 day and 3 days) after epileptic seizures in pilocarpine-treated rats; however, it clearly decreased after spontaneous recurrent seizures (7 days, 21 days, and 60 days after seizures). In addition, double immunofluorescence and immunohistochemical labeling studies performed in patient and experimental animal tissue revealed that VMAT2 protein was mainly expressed in the cytoplasm and in the axons of neurons but not glial cells in the hippocampus and temporal lobe cortex. These data suggested that the abnormal expression of VMAT2 mRNA and protein in epileptic brain tissue may contribute to vulnerability toward epilepsy-related psychiatric disorders and cognitive impairment. Synapse 67:415–426, 2013. © 2013 Wiley Periodicals, Inc.     

Association study of the vesicular monoamine transporter gene SLC18A2 with tardive dyskinesia

Tardive dyskinesia (TD) is an involuntary movement disorder that can occur in up to 25% of patients receiving long-term first-generation antipsychotic treatment. Its etiology is unclear, but family studies suggest that genetic factors play an important role in contributing to risk for TD. The vesicular monoamine transporter 2 (VMAT2) is an interesting candidate for genetic studies of TD because it regulates the release of neurotransmitters implicated in TD, including dopamine, serotonin, and GABA. VMAT2 is also a target of tetrabenazine, a drug used in the treatment of hyperkinetic movement disorders, including TD. We examined nine single-nucleotide polymorphisms (SNPs) in the SLC18A2 gene that encodes VMAT2 for association with TD in our sample of chronic schizophrenia patients (n = 217). We found a number of SNPs to be nominally associated with TD occurrence and the Abnormal Involuntary Movement Scale (AIMS), including the rs2015586 marker which was previously found associated with TD in the CATIE sample ( Tsai et al., 2010), as well as the rs363224 marker, with the low-expression AA genotype appearing to be protective against TD (p = 0.005). We further found the rs363224 marker to interact with the putative functional D2 receptor rs6277 (C957T) polymorphism (p = 0.001), supporting the dopamine hypothesis of TD. Pending further replication, VMAT2 may be considered a therapeutic target for the treatment and/or prevention of TD.     

Elevated platelet vesicular monoamine transporter 2 in former heroin addicts maintained on methadone

Summary. The brain vesicular monoamine transporter (VMAT2) is essential for neuronal monoamine storage and regulation of monoaminergic neurotransmission. We demonstrated previously a high degree of similarity between the pharmacodynamic characteristics of platelet and brain VMAT2. Opioids induce increase of dopamine release in limbic structures. In the present study we assessed the VMAT2 pharmacodynamic characteristics using high affinity [³H]dihydrotetrabenazine (TBZOH) binding to platelets of former male heroin addicts maintained on methadone (n = 12) compared to age-matched healthy controls (n = 13). A significant increase (19%, p < 0.05) in platelet VMAT2 density (Bmax) was observed in the methadone treated patients compared to controls. There was no significant difference in the affinity of [³H]TBZOH to its platelet binding site. The increased VMAT2 density may reflect a compensatory attempt to prevent vesicular depletion due to chronic methadone exposure.     

Decreased densities of dopamine and serotonin transporters and of vesicular monoamine transporter 2 in severely kainic acid lesioned subregions of the striatum

Summary. Fifteen days after a striatal kainic acid (KA) injection, we have examined presynaptic modifications of dopamine and serotonin terminals in the striatum through (i) autoradiographic labeling of dopamine, serotonin and vesicular monoamine transporters respectively with ³H-mazindol, ³H-citalopram and ³H-dihydrotetrabenazine, and (ii) determination of the contents in dopamine, serotonin and their metabolites. Acetylcholinesterase histochemical labeling enabled the definition of severely and moderately KA-lesioned subregions within the striatum. A significant decrease of the three transporters labeling density was observed only in the severely lesioned subregions. The strong decrease in serotonin transporter labeling revealed here has not been described until now. Besides, the striatal contents of homovanillic acid (dopamine metabolite) and 5-hydroxyindolacetic acid (serotonin metabolite) were significantly increased in the lesioned striatum. The whole data evidence an incomplete sparing of dopamine and serotonin terminals in the striatum 15 days after a KA injection, especially in the areas where the degeneration of postsynaptic neurons was the most extensive. Received May 31, 2000; accepted October 23, 2000     

Vilazodone: A 5-HT1A Receptor Agonist/Serotonin Transporter Inhibitor for the Treatment of Affective Disorders

Vilazodone ( EMD 68843; 5-{4-[4-(5-cyano-3-indolyl)-butyl]-1-piperazinyl}-benzofuran-2-carboxamide hydrochloride) is a combined serotonin specific reuptake inhibitor (SSRI) and 5-HT_1A receptor partial agonist currently under clinical evaluation for the treatment of major depression. This molecule was designed based on the premise that negative feedback circuitry, mediated via 5-HT₁ receptors, limits the acute SSRI-induced enhancements in serotonergic neurotransmission. If the hypothesis is correct, combination of SSRI with 5-HT_1A partial agonism should temporally enhance the neuroplastic adaptation and subsequently hasten therapeutic efficacy compared to current treatments. Preclinical in vitro evaluation has confirmed vilazodone's primary pharmacological profile both in clonal and native systems, that is, serotonin reuptake blockade and 5-HT_1A partial agonism. However, in vivo and in contrast to combination of 8-OH-DPAT and paroxetine, vilazodone selectively enhanced serotonergic output in the prefrontal cortex of rats. Behavioral evaluations, in the ultrasonic vocalization model of anxiety in rats, demonstrated anxiolytic efficacy. In the forced swim test (a putative model of depression), vilazodone also showed efficacy but at a single dose only. In man, vilazodone abolished REM sleep and demonstrated clinical antidepressant efficacy equivalent to an SSRI. Ongoing clinical evaluations will hopefully reveal whether the founding hypothesis was valid and if vilazodone will produce a more rapid onset of antidepressant efficacy.     

Distribution of vesicular monoamine transporter 2 protein in human brain: implications for brain imaging studies

The choice of reference region in positron emission tomography (PET) human brain imaging of the vesicular monoamine transporter 2 (VMAT2), a marker of striatal dopamine innervation, has been arbitrary, with cerebellar, whole cerebral, frontal, or occipital cortices used. To establish whether levels of VMAT2 are in fact low in these cortical areas, we measured VMAT2 protein distribution by quantitative immunoblotting in autopsied normal human brain (n=6). Four or five species of VMAT2 immunoreactivity (75, 55, 52, 45, 35 kDa) were detected, which were all markedly reduced in intensity in nigrostriatal regions of patients with parkinsonian conditions versus matched controls (n=9 to 10 each). Using the intact VMAT2 immunoreactivity, cerebellar and cerebral neocortices had levels of the transporter >100-fold lower than the VMAT2-rich striatum and with no significant differences among the cortical regions. We conclude that human cerebellar and cerebral cortices contain negligible VMAT2 protein versus the striatum and, in this respect, all satisfy a criterion for a useful reference region for VMAT2 imaging. The slightly lower PET signal for VMAT2 binding in occipital (the currently preferred reference region) versus cerebellar cortex might not therefore be explained by differences in VMAT2 protein itself but possibly by other imaging variables, for example, partial volume effects.     

Chasing Tics in the Human Brain: Development of Open,Scheduled and Closed Loop Responsive Approaches to Deep Brain Stimulation for Tourette Syndrome

Tourette syndrome is a childhood-onset disorder characterized by a combination of motor and vocal tics, often associated with psychiatric comorbidities including attention deficit and hyperactivity disorder and obsessive-compulsive disorder. Despite an onset early in life, half of patients may present symptoms in adulthood, with variable degrees of severity. In select cases, the syndrome may lead to significant physical and social impairment, and a worrisome risk for self injury. Evolving research has provided evidence supporting the idea that the pathophysiology of Tourette syndrome is directly related to a disrupted circuit involving the cortex and subcortical structures, including the basal ganglia, nucleus accumbens, and the amygdala. There has also been a notion that a dysfunctional group of neurons in the putamen contributes to an abnormal facilitation of competing motor responses in basal ganglia structures ultimately underpinning the generation of tics. Surgical therapies for Tourette syndrome have been reserved for a small group of patients not responding to behavioral and pharmacological therapies, and these therapies have been directed at modulating the underlying pathophysiology. Lesion therapy as well as deep brain stimulation has been observed to suppress tics in at least some of these cases. In this article, we will review the clinical aspects of Tourette syndrome, as well as the evolution of surgical approaches and we will discuss the evidence and clinical responses to deep brain stimulation in various brain targets. We will also discuss ongoing research and future directions as well as approaches for open, scheduled and closed loop feedback-driven electrical stimulation for the treatment of Tourette syndrome.     

Treatment effects on nigrostriatal projection integrity in partial 6-OHDA lesions: comparison of L-DOPA and pramipexole

There is controversy over potential effects of dopaminergic replacement therapies on the partially lesioned nigrostriatal dopaminergic projection. We evaluated indirect (levodopa, L-DOPA) versus direct (pramipexole, PRA) dopaminergic treatment effects on nigrostriatal lesion severity as measured with vesicular monoamine transporter type-2 (VMAT2) binding. Prior studies have shown that striatal VMAT2 density provides an objective estimate of dopaminergic neuronal integrity, without confounding effects of compensatory regulation. Partial unilateral median forebrain bundle lesions were made by injection of 6-hydroxydopamine in adult male Sprague-Dawley rats. Lesion severity was estimated using rotational behavior after injections of apomorphine and amphetamine. Rats were ranked and matched in pairs by rotation and assigned to receive either PRA (1 mg/kg/day) or L-DOPA/benserazide (100/25 mg/kg/day) ip via osmotic pump. After 4 weeks of drug treatment, in vitro autoradiography was performed with [(3)H]methoxytetrabenazine to measure striatal VMAT2 binding density. Lesion-to-intact VMAT2 density correlated with rotation in both treatment groups. There was no treatment effect on VMAT2 expression in the partially lesioned striatum and thus no differential effect of indirect versus direct dopamimetic treatment on nigrostriatal integrity.